Keywords

Introduction

Colorectal cancer cells can induce apoptosis in cells of various tissues [1]. Apoptosis can be induced by a number of factors such as Fas inducing apoptosis through the Fas/FasL pathway; other factors involve the TRAIL pathway and TNF. It is known that metastasizing colon cancer cells express more FasL then primary carcinoma cells [2]. We investigated whether a rat colon carcinoma cell line CC531s could induce apoptosis in liver sinusoidal endothelial cells (LSECs). LSECs and CC531s were co-cultured for 18 hrs and cells were visualized by SEM and TEM. Apoptosis was visualized by markers such as Hoechst and Propidium iodide. Furthermore, cells were recorded by time lapse video microscopy with and without an antagonistic antibody for FasL.

Co-culture of CC531s cells and LSECs

LSECs were isolated [3], purified and seeded to confluence on collagen-S coated wells and RPMI- 1640 supplemented with 10% heat inactivated fetal calf serum (FCS), 2 mM L-glutamine, 100 U/ml penicillin and 100 micrograms/ml streptomycin. The cells were kept in culture for 4 hrs. Subsequently, cells were washed with prewarmed RPMI. CC531s cells were seeded on top of LSECs at a ratio of 1:10. In order to visualize apoptosis, cells were stained with Hoechst 33342 and propidium iodide [4]. In order to discriminate cells, CC531s were stained with DiO [5]. For TEM and SEM, cells were prepared [6] and viewed with F. E. I. Tecnai 10 and Philips SEM 505. For time lapse recordings, cells were recorded up to 1 hr. Cells were cultured in medium only and/or with an antagonistic antibody against FasL (20 micrograms/ml).

Results and Discussion

After 18 hrs of co-culture of LSECs and CC531s, LSECs reveal typical features of apoptosis (Fig. 1). After Hoechst and propidium iodide staining LSECs neighboring the CC531s cells reveal fragmented nuclei, in contrast to LSECs cultures where the nuclei display a normal morphology. With electron microscopy the same observation could be made, the surface of the cells reveals blebbing and with the TEM fragmented nuclei could be observed. Both in comparison with the control condition where LSECs reveal fenestrae and sponge-like appearance of the cytoplasm. In the literature, this type of apoptosis was also observed when human umbilical vein endothelial cells HUVEC and a mammary carcinoma cell line [7].

Figure 1

LSECs in control conditions (A, C, E) and co-culture of CC531s cells (T) and LSECs (B, D, F). A, B: Hoechst and propidium iodide staining recorded with a fluorescence microscope, Control LSECs (A) have almost no fragmented nuclei while LSECs (B) neighboring CC531s also reveal fragmented nuclei (arrow). CC531s are stained with DiO to differentiate from the LSECs. C, D: SEM recordings, in control cells (C) fenestrae can be observed and cytoplasm of the cells is well spread while CC531s neighboring the LSECs induce apoptosis in LSECs (D), as shown by blebbing and retraction of the cytoplasm (arrow). E, F: TEM recordings, control cells (E) show sponge like cytoplasm while LSECs (F) with CC531s cells show fragmented nuclei (arrow).

Time-lapse recordings (Fig. 2) provided comparable observations in the non-treated cells. At time point 0, LSECs reveal spread cytoplasm. After 30 minutes, cells start to shrink and after 1 hr cells show signs of apoptosis. In contrast, treated cells remain to have a spread cytoplasm and do not proceed to apoptosis. In accordance, colon carcinoma cell lines can also induce apoptosis in Fas bearing hepatocytes [8].

Figure 2

LSECs (*) and CC531s (T) co-cultures were performed with (D-F) and without aFasL (A-C) After 18 hrs incubation, recordings were made for 1 hour at time points 0 (A, D), 30 (B, E) and 60 (C, F) minutes are shown here. In conditions without aFasL, cells are rounding up and reveal signs of apoptosis after contact with CC531s. In conditions with aFasL, LSECs remain unchanged.

In conclusion: CC531s cells can induce apoptosis in LSECs and and antagonistic antibody against FasL abrogates this apoptosis.

Authors’ Affiliations

(1)

Laboratory for Cell Biology and Histology, Free University of Brussels (VUB), Brussels, Belgium

Copyright

This article is published under license to BioMed Central Ltd. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.